A device that converts the energy of combustion of fuels, like hydrogen and methane, directly into electrical energy is known as:
1. | Fuel cell. | 2. | Electrolytic cell. |
3. | Dynamo. | 4. | Ni-Cd cell. |
When 0.1 mol MnO42- is oxidized the quantity of electricity required to completely oxidise MnO42-- to MnO4- is:
1. 96500 C
2. 2 x 96500 C
3. 9650 C
4. 96.50 C
The weight of silver (at.wt. = 108) displaced by a quantity of electricity which displaces 5600 mL of O2 at STP will be:
1. 5.4 g
2. 10.8 g
3. 54.0 g
4. 108.0 g
A hydrogen gas electrode is made by dipping platinum wire in a solution of HCl of pH = 10 and by passing hydrogen gas around the platinum wire at one atm pressure. The oxidation potential of the electrode would be:
1. | 0.59 V | 2. | 0.118 V |
3. | 1.18 V | 4. | 0.059 V |
If half-cell potentials are-
Zn2+(aq) + 2e–→ Zn(s) | Eo = – 0.76 V |
Ag2O(s) + H2O(l) + 2e– → 2Ag(s) + 2OH–(aq) | Eo = 0.34 V |
The cell potential will be:
1. | 0.42 V | 2. | 0.84 V |
3. | 1.34 V | 4. | 1.10 V |
1. | – 4.18 V and yes | 2. | + 0.33 V and yes |
3. | + 2.69 V and no | 4. | – 2.69 V and no |
1. | 4.0 | 2. | 20.0 |
3. | 40.0 | 4. | 0.66 |
Limiting molar conductivity of NH4OH (i.e., is equal to -
1.
2.
3.
4.
The Gibb's energy for the decomposition of at is as follows:
2/3Al2O3 → 4/3Al + O2 ; ∆rG = + 960 k J mol-1
The potential difference needed for the electrolytic reduction of aluminium oxide (Al2O3) at is at least,
1. 3.0 V
2. 2.5 V
3. 5.0 V
4. 4.5 V